IOM 410. Installation Operation Maintenance Information. UNIT COOLERS Super-Flo (SD Models) Easy-Flo (EF Models) Table of Contents
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1 IOM 410 Installation Operation Maintenance Information UNIT COOLERS Super-Flo (SD Models) Easy-Flo (EF Models) Air, Electric & Hot Gas Defrost Table of Contents Inspection General Safety Information Installation Piping Considerations Line Size Tables Hot Gas Piping Expansion Valve Installation Expansion Valve Selection Unit Cooler (Internal) Wiring Diagrams Typical Field Wiring, Sequence of Operations Start-Up Procedure Defrost Controls Maintenance TroubleShooting Chart Replacement Parts Super-Flo Easy-Flo WITT P.O. Box 580 Collierville, TN (901) Fax (901)
2 INSPECTION Equipment listed on the Bill of Lading but not received, along with any equipment damaged in transit, should be reported immediately to the carrier and a claim filed. Also, check unit nameplates to make sure the voltage is correct before installing. 1. Installation and maintenance are to be performed by qualified personnel who are familiar with this type of equipment. 2. Make sure all field wiring conforms to the equipment requirements and all applicable national and local codes. GENERAL SAFETY INFORMATION INSTALLATION 3. Avoid contact with sharp edges and coil surfaces. They are a potential injury hazard. 4. Disconnect all power sources before performing service or maintenance. Witt SD unit coolers are designed to draw air in through the coil and discharge it through the fans while Witt EF unit coolers are designed to draw air in through the fan guards and discharge it through the coil surface. For most efficient operation, units should be located so that air from an open door cannot be drawn directly into the fans. FIGURE 1: MODEL EF TOP VIEW Dimension Ft. A B C Minimum /2 Maximum FIGURE 2: MODEL SD TOP VIEW When mounting the units, lift and handle them by the cabinet or hanger flanges only. Do not attempt to lift the units by the tubing or fan guards or damage may result. See Figure 1 (EF) or Figure 2 (SD) for location recommendations. These two drawings show the air flow direction and recommended minimum clearances to walls or other obstructions or other unit coolers. The units should be lifted into position by grasping underneath at each end. Care should be taken so that the drain pan is not damaged. The units can be mounted directly to the ceiling using 5/16 lag bolts, or they may be hung below the ceiling using 5/16 threaded rod. If the unit is hung below the ceiling, adequate space must be provided to allow cleaning per UL Sanitation requirements. IMPORTANT: The units must be mounted level in order to drain properly. Use a spirit level to make sure the unit is level in both directions. Proper pitch is provided in the drain pan so the unit will drain when mounted level. Drain Line All units are furnished with a 3/4 FPT drain connection. The drain should be run with a minimum of 1/2 of slope per foot of horizontal run. Keep the length of drain line within the refrigerated space as short as possible. Provide a trap in the line outside of the refrigerated space. On freezer applications, the drain line within the refrigerated space must be wrapped with a heat tape and insulated to prevent water from freezing in the line during the defrost cycle.
3 Table Liquid Line Selection Table 2: Suction Line Selection Line Equiv. Unit Cooler Capacity Size Lgth. BTUH (O.D.) (Ft.) R-22 R404A & R ,000 30,000 3/ ,500 20, ,000 12, ,200 10, ,350 60,000 1/ ,450 38, ,100 26, ,650 21, , ,650 5/ ,350 73, ,000 53, ,450 40, , ,120 7/ , , , , , ,150 These line capacities are also suitable for R502 Line Equiv. Unit Cooler Capacity BTUH Size Lgth. R-22 R404a (HP-62), 507 (AZ-50) (O.D.) (Ft.) Suction Temperature F Suction Temperature F ,800 12,000 18,000 4,000 6,000 10,500 15,500 5/8 50 3,575 5,500 12,000 3,000 4,000 7,500 9, ,600 4,000 9,000 2,000 3,000 5,500 6, ,275 3,500 6,500 1,000 1,500 2,500 4, ,835 25,900 48,000 12,100 18,200 27,000 35,500 7/ ,700 18,000 30,200 6,500 12,200 18,500 24, ,880 15,200 24,100 4,000 6,200 14,500 18, ,865 12,100 18,200 3,500 4,200 10,500 15, ,700 68, ,650 20,000 36,200 58,100 88, / ,500 46,500 70,750 14,300 24,800 39,600 60, ,100 32,100 48,450 9,700 16,700 27,050 41, ,750 25,400 38,820 7,900 13,400 21,500 33, , , ,750 38,000 64, , , / ,000 81, ,120 25,750 44,100 69, , ,200 55,120 84,100 17,650 30,150 47,050 72, ,500 44,350 67,150 14,100 24,120 38,550 57, , , ,100 67, , , , / , , ,100 42,100 71, , , ,400 87, ,200 28,650 48,800 76, , ,120 69,500 98,750 23,100 38,500 61,150 91, , , , , , , , / , , ,100 90, , , , , , ,120 61, , , , , , ,110 49,150 82, , ,600 Refrigerant Piping Install all refrigeration components in accordance with accepted piping practices. Liquid and suction lines may be sized using the suggestions on Page 3, however ASHRAE recommendations must be considered the final authority. All horizontal suction lines should be sloped toward the compressor at the rate of 1/8 per foot for good oil return. Vertical suction risers of more than five feet should be trapped with a P-Trap at the bottom. Find the appropriate factor from Table 3. Divide the BTUH requirement by the Table 3 factor, then select the pipe size directly from Table 1 or 2. Example: Select the correct suction line size for 40,000 BTUH of MP-39 at +20 F. suction temperature and 100 equivalent feet of tubing. 1. Find the factor 0.60 in the R-22 (Suction) column opposite the MP-39 side heading of Table 3. Table 3: Other Refrigerants Capacity Multiplier Refrigerant Use R-22 Table Use R404a Table Liquid Suction Liquid Suction R-134a, MP HP R-401A R-402A 2. Divide 40,000 BTUH by 0.60 to find the corrected capacity. Corr. Capacity = 40,000 BTUH 0.60 = 66,667 BTUH (i.e., 100 equivalent feet of tubing large enough for 66,667 BTUH of R-22 will be suitable for 40,000 BTUH with MP-39). Table 3 lists the multipliers to convert R-22 piping capacities to R-134a or MP-39; and to convert R-404a piping capacities to HP-80. Use the following procedure to avoid tedious trial and error pipe sizing. 3. Refer to Table 2 and find 84,100 BTUH in the R-22 (+20 Suction Temp.) column opposite the 1-3/8 (100 Equiv. Lgth.) side heading. The correct line size is 3/8 OD. It will be noted that 100 of 1-1/8 is suitable for only 48,450 BTUH. 3
4 Hot Gas Piping Hot gas defrost systems can be described as either Re-Evap (three-pipe) or Reverse Cycle (two-pipe) types. Figures 4 thru 7 represent typical piping arrangements for hot gas defrost units. SDG and EFG units may be ordered for either of the two system types mentioned above. LOW TEMPERATURE SDG units only are equipped with a hot gas drain pan loop. Re-Evap System Uses three pipes as shown in Figures 6, 7 & 9 one for the liquid, one for the suction and one for the hot gas. In addition, a heat exchanger/re-evaporator (Figure 3) is used at the suction line outlet of the evaporator and is piped exactly the same as an ordinary liquid/suction heat exchanger. The hot gas is taken from the discharge line between the compressor and the condenser, through a hot gas solenoid valve, then through the hot gas line to the unit cooler. On low temperature SDG units (Fig. 6), the hot gas enters the unit at the drain pan loop before going to the side inlet of the distributor. On all medium temperature units the hot gas goes directly to the side inlet of the distributor. See Fig. 7 (SDG) and Fig. 9 (EFG). The hot gas for all units then goes thru the coil in the same direction as the normal refrigeration flow. The condensed refrigerant is trapped in the re-evaporator as it leaves the coil, there to be metered as a heavy vapor into the suction line flow back to the compressor. Reverse Cycle Is a technique in which the hot gas flows backwards (i.e. opposite to the normal refrigerating flow) through the evaporator. Systems employing the reverse cycle principle are divided into two types Alternating Evaporator and Heat Pump systems. Alternating Evaporator System This is the system commonly referred to as "Reverse Cycle Defrost". It must have multiple evaporator coils on the same system to operate. Evaporator coils are defrosted in groups of one or more coils per group. 65% to 75% of the coils will continue to refrigerate while 25% to 35% are on defrost. The defrosting coils produce liquid refrigerant which is used to operate the coils which are still refrigerating. The simplest design is a system with one condensing unit and three evaporator coils. One coil will defrost at a time, while the other two continue to refrigerate. FIGURE 3 Heat-Exchanger/Accumulator A hot gas line is run from the discharge line of the compressor close to the junction of the main suction line with the three individual suction lines. There the hot gas line branches into three hot gas lines. Each of these three lines has a hot gas solenoid valve; the leaving side of each solenoid valve is teed into one of the three branch suction lines. Each suction line has a suction-stop valve installed between the main suction line and the hot gas tee-in to keep hot gas from entering the main suction line to the compressor. In this way, each evaporator coil has a source for hot gas, controlled by its own defrost solenoid valve. A modular multi-circuit defrost timer is normally employed to synchronize the three defrosts. The timer initiates defrost on a given coil, opening its hot gas solenoid (and closing its suction-stop valve), allowing hot gas to flow backwards through the suction line towards the coil. On low temperature SDG units (Fig. 4), the hot gas enters the unit at the drain pan loop before going into the suction side of the coil itself. On all medium temperature units, the hot gas goes directly into the suction side of the coil. See Fig. 5 (SDG) and Fig. 8 (EFG). As it leaves the coil, the condensed liquid flows through a bypass line around the expansion valve into the liquid line. It flows backwards through the branch liquid line until it reaches the main liquid line, where it is re-introduced into the refrigerating part of the system. The main liquid line is made to operate at a lower pressure during defrost so that it will accept the liquid from the defrosting coil. A much larger Alternating Evaporator system will still operate in much the same way. Such a system might have a larger compressor or a parallel compressor rack operating with many more evaporator coils than described above. Now there will be a group of coils defrosting at once instead of just one. It is important, however, that no one defrost group is larger in refrigerating capacity than 25% to 35% of the total. A given hot gas line and solenoid valve will now service its evaporator group instead of only one evaporator. Heat Pump System Usually employs a single condensing unit and single evaporator. Primarily used in the HVAC industry to transform the (Summertime) DX cooling coil into a (Wintertime) heating coil. A DX coil can be defrosted in this way when used in a specialized system. CAPACITY AND DIMENSIONS EVAPORATOR MODEL A B C D CAPACITY NO. (OD) (OD) Up to 6,000 HEA-1A 9-3/4 5 7/8 3/8 6,000 to 12,000 HEA-2A 15-3/ /8 1/2 12,000 to 24,000 HEA-3A 27-3/ /8 1/2 24,000 to 36,000 HEA-4A 37-3/ /8 5/8 36,000 to 55,000 HEA-5A 45-3/ /8 5/8 55,000 to 80,000 HEA-6A 64-3/ /8 7/8 4 NOTE: Level-mount the Heat-Exchanger/Accumulator within refrigerated space as close to the evaporator as possible. The metering valve is to be in the down position as shown.
5 Figure 4 Low Temp. Units (With Drain Pan Loop) Super-Flo Units Reverse-Cycle (Two-Pipe) Systems Figure 5 Medium Temp. Units (without drain pan loop Figure 6 Low Temp. Units (With Drain Pan Loop) Re-Evap (Three-Pipe) Systems Figure 7 Medium Temp. Units (With Drain Pan Loop) Easy-Flo Medium Temp. (without drain pan loop) Figure 8 Reverse-Cycle (Two-Pipe) Systems Figure 9 Re-Evap (Three-Pipe) Systems 5
6 Expansion Valve Installation All units use an externally equalized type valve. See Table 4 and 5 for expansion valve selection. NOTE: All units have 1/2" OD male sweat inlet connections except Super-Flo Models 220L, 240L, 260L and 300L which are 7/8" OD male sweat. Locate the valve inside the end compartment of the unit. If the unit has a distributor, make sure it is in the vertical position for best refrigerant distribution. Some units are shipped with more than one size nozzle for the distributor. Follow instructions in unit for selecting and installing the correct nozzle before expansion valve installation. Sweat the outlet of the valve to the inlet of the distributor, or on one circuit coils, to the coil inlet connection. Connect the external equalizer to the valve. Follow valve manufacturers instructions for protecting the valve from overheating during installation. Locate valve sensing bulb (at 4 or 8 o'clock position) on a horizontal length of suction line as close to the unit as possible. Make sure that there is full length contact between the bulb and the suction tubing. If there is a P-trap in the suction line, locate the bulb between the unit and the trap. NOTE: Install a 1/4 inch male flare access fitting in the suction line near the unit to use when taking superheat readings. See "Super Heat Adjustment" section of this manual for information on super-heat check and adjustment. Table 4: Expansion Valve -20 F. Suction Temp. and 100 F. Liquid Temp. Sporlan Valves R-22 R-507 (AZ50) R-402A (HP80) Minimum Maximum Mean Sporlan Minimum Maximum Mean Sporlan Minimum Maximum Mean Sporlan BTU BTU BTU Valve Type BTU BTU BTU Valve Type BTU BTU BTU Valve Type EBFVEAAZP EBFREAAZP EBFREAAZP EBFVEAZP EBFREAZP EBFREAZP EBFVEBZP EBFREBZP EBFREBZP EBFVECZP EBFRECZP EBFRECZP EBSRE71/2ZP R-404A (HP62) Minimum Maximum Mean Sporlan BTU BTU BTU Valve Type EBFREAAZP EBFREAZP EBFREBZP EBFRECZP Alco Valves R-22 R-404A (HP-62) R-402A (HP-80) Minimum Maximum Mean Alco Minimum Maximum Mean Alco Minimum Maximum Mean Alco BTU BTU BTU Valve Type BTU BTU BTU Valve Type BTU BTU BTU Valve Type HFES1/4HW HFES 1/8SW HFES 1/4LW HFES1/2HW HFES 1/4SW HFES 1/2LW HFES1HW HFES 1/2SW HFES 3/4LW HFES1 1/2HW HFES 1 SW HFES 1LW HFES 2HW HFES1 1/4 SW HFES 1 1/4LW HFES2 1/2HW HFES1 1/2 SW HFES1 1/2LW HFES 3HW HFES 2 SW HFES 2LW HFES3 1/2 SW HFES 4 LW45 R-507 (AZ50) Minimum Maximum Mean Alco BTU BTU BTU Valve Type HFES 1/8RW HFES 1/4RW HFES 1/2 RW HFES 1 RW HFES 1 1/4RW HFES 1 1/2RW HFES 2 RW HFES3 1/2RW45
7 Table 5: Expansion Valve 25 F Suction Temp. and 100 F Liquid Temp. Sporlan Valves R-22 R-134a R-401A (MP39, R-12) Minimum Maximum Mean Sporlan Minimum Maximum Mean Sporlan Minimum Maximum Mean Sporlan BTU BTU BTU Valve Type BTU BTU BTU Valve Type BTU BTU BTU Valve Type EBFVEAAC EBFFEAAC EBFFEAAC EBFVEAC EBFFEAC EBFFEAC EBFVEBC EBFFEBC EBFFEBC EBFVECC EBFFECC EBFFECC R-404A (HP62) R-507 (AZ50) R-402A (HP80) Minimum Maximum Mean Sporlan Minimum Maximum Mean Sporlan Minimum Maximum Mean Sporlan BTU BTU BTU Valve Type BTU BTU BTU Valve Type BTU BTU BTU Valve Type EBFREAAC EBFREAAC EBFREAAC EBFREAC EBFREAC EBFREAC EBFREBC EBFREBC EBFREBC EBFRECC EBFRECC EBFRECC Alco Valves R-22 R-134a R-404A (HP-62) Minimum Maximum Mean Alco Minimum Maximum Mean Alco Minimum Maximum Mean Alco BTU BTU BTU Valve Type BTU BTU BTU Valve Type BTU BTU BTU Valve Type HFES1/4HC HFES 1/4MC HFES 1/8SC HFES1/2HC HFES 1/2MC HFES 1/4SC HFES1HC HFES 3/4MC HFES 1/2SC HFES1 1/2HC HFES 1 MC HFES 1 SC HFES 2HC HFES1 1/2MC HFES1 1/4 SC HFES2 1/2HC HFES1 3/4MC HFES1 1/2 SC HFES 3HC HFES2 1/2MC HFES 2 SC HFES 4MC HFES3 1/2 SC R-507 (AZ50) R-401 (MP-39, R12) Minimum Maximum Mean Alco Minimum Maximum Mean Alco BTU BTU BTU Valve Type BTU BTU BTU Valve Type HFES 1/8RC HFES 1/4XC HFES 1/4RC HFES 1/2XC HFES 1/2 RC HFES 3/4 XC HFES 1 RC HFES 1 XC HFES 1 1/4RC HFES 1 1/2 XC HFES 1 1/2RC HFES 2 XC HFES 2 RC HFES 2 1/2 XC HFES 3 1/2RC HFES 4 1/2 XC 7
8 FACTORY WIRING STANDARD UNIT COOLERS Air, Hot Gas and Electric Defrost The following 3 diagrams show the standard factory (internal) wiring for Air, Hot Gas and Electric Defrost Air Defrost Diagram 1 Electric Defrost Diagram 3 (EFE Units) * Units may have more than one motor multiple motors are wired in parallel. Hot Gas Defrost Diagram 2 * Units may have more than one motor multiple motors are wired in parallel and multiple heaters are wired in parallel. Note: Fan delay thermostat is on low temperature units only. Diagram 4 (SDE Units) * Units may have more than one motor multiple motors are wired in parallel. 8 Note: Fan delay thermostat is on low temperature units only. * Units may have more than one motor multiple motors are wired in parallel and multiple heaters are wired in parallel.
9 TYPICAL FIELD WIRING SEQUENCE OF OPERATION General Information IMPORTANT: All wiring must be done in accordance with applicable codes and local ordinances. Refer to the unit cooler nameplate to determine the required ampacities of motor and heater circuits. NOTE: The wiring diagrams on Pages 9 to 13 are shown to provide visual support for the field wiring considerations and sequence of operations discussed below. They are generic relative to the high-side, showing only the defrost timer. Refer to Page 8 for details of internal unit cooler wiring. The basic sequence of operation for electric defrost is given on Page 11 all other electric defrost diagrams refer back to that sequence with the exceptions noted. Wiring Legend The following is a legend of the wiring symbols and designations used in diagrams 15 through 23. Field terminal block connection in Witt condensing unit. Field terminal-block connection Field wiring Bold dashed wiring shows alternate methods of terminating defrost pressure control in condensing unit or thermostat in unit cooler. TC1 Room thermostat LLS Liquid line solenoid PC Pressure control M2 Heater contactor M3 Fan motor contactor M4 Heater contactor R1 Lockout relay R2 Sequencing relay R3 Sequencing relay Air Defrost SDA and EFA units will require the connection of power to the fan motor circuit. Wiring Diagram 4 Time Termination is done by setting the fail-safe dial of the timer to the desired defrost duration. An air defrost system is wired so that the evaporator fans run continuously unless manually de-energized. Whenever the compressor stops, the room air (minimum +34 degrees) warms the coil to room temperature, melting the frost. It is essential that the frost completely melts and drains each time the compressor cycles off. If it does not, a partial air defrost results, and the residual water and slush re-freeze into ice during the next run cycle. Ice removal usually requires manual defrost methods. Adequate off-cycle (defrost) time is a function of system capacity. If the system is too small for the application, ice build-up will usually result. Use of an air defrost timer is sometimes successful on undersized systems in avoiding coil icing. A temporary loss of room temperature will occur during defrost. Optional timers are available to assist in air defrost application. 9
10 TYPICAL FIELD WIRING SEQUENCE OF OPERATION Hot Gas Defrost Re-Evap Type Wiring Diagram volt or volt units wired directly to timer. The termination solenoid in the timer will switch the timer back into the normal (refrigerating) position, opening the contact to timer terminal #3 (de-energizing the HGS); and closing the contact to terminal #4 (energizing the LLS and bringing power to one side of the unit cooler fan motors). Pressure Termination The pressure control (by others) will sense the completion of defrost (recommended set point is the refrigerant pressure equivalent to 45 F.) and close its contact, supplying power to terminal "X" on the timer. The balance of the termination sequence is identical to Temperature Termination above. Note: EFG units do not have a fan delay thermostat. Wire the M3 holding coil directly to N1. Normal Refrigeration The liquid line solenoid valve (LLS) receives power from terminal #4 of the defrost timer through the room thermostat. The thermostat will close on rise of room temperature, energizing the LLS, allowing refrigerant flow to the unit cooler. Pressure will build up in the low-side and the low pressure control (not shown) will close, starting the compressor. The room thermostat will open when it reaches its cut-out set point, breaking power to the LLS. The LLS will close, stopping refrigerant flow to the unit cooler. The system will pump down and the compressor will stop. Defrost The defrost timer will switch to the defrost position at the preset time. Timer contact to terminal #4 will open, breaking power to the LLS and the unit cooler fan motor(s). Timer contact to terminal #3 will close at the same time, supplying power to the hot gas solenoid valve (HGS), allowing hot gas to flow to the unit cooler. A normally open solenoid valve installed in the discharge line to the condenser (not shown) is typically wired in parallel with the HGS. NOTE: Both temperature and pressure terminations are shown in the same wiring diagram for the sake of brevity only one would actually be employed. The pressure control would be eliminated for temperature termination the field wire from terminal "X" on the unit cooler to terminal "X" on the timer would be eliminated for pressure termination. Temperature Termination The Defrost Termination thermostat installed in the unit cooler will sense the completion of defrost and close its contact X-N2, supplying power to terminal "X" on the timer. Systems with SDG Units will begin to refrigerate without the unit cooler fans running. This prevents water droplets and steam from blowing into the room. The fan delay thermostat installed in the unit cooler will sense when the coil re-freezes and will close contact B1-N1 energizing the fan motors. Thus normal refrigeration is resumed. NOTE: SDG unit fans on systems operating above +20 evaporator temperature may experience excessive delay restarting after defrost. The fan delay thermostat may be de-activated as follows. Move the B1 end of the B1-B2 jumper to N1 (Diagram 5). Wire the M3 contactor holding coil to N1 & 4 (rather than B1 & 4 as shown in Diagram 6). Systems with EFG units are not furnished with fan delay thermostats, so the fans start operating immediately upon termination. Wiring Diagram 6 Units Wired with Fan Contactor Note: EFG units do not have a fan delay thermostat. Wire the M3 holding coil directly to N1. 10
11 TYPICAL FIELD WIRING SEQUENCE OF OPERATION Electric Defrost Single Unit Cooler Systems Wiring Diagram 7 One volt unit wired directly to timer. the timer. The termination solenoid in the timer will switch the timer back into the normal (refrigerating) position, opening the contact to terminal #3 (de-energizing the defrost heater); and closing the contact to terminal #4 (energizing the LLS and bringing power to terminal #4 of the unit cooler fan motors). Caution: Coolers warmer than 32 F. are susceptible to partial air defrost resulting in ice build-up. Time termination may be required. SDE Units will begin to refrigerate without the unit cooler fans running. This prevents water droplets and steam from blowing into the room. The fan delay thermostat will sense when the coil re-freezes and will close contact B1-N1, energizing the fan motors. Thus normal refrigeration is resumed. Note: EFE units do not have a fan delay thermostat. Wire a jumper from B2 to N1. NOTE: SDE unit fans on systems operating above +20 evaporator temperature may experience excessive delay restarting after defrost. The fan delay thermostat may be de-activated as follows: Move the B1 end of the B1-B2 jumper to N1 (Diagram 7). Wire the M3 contactor holding coil to N1 & 4 (rather than B1 & 4 as shown in Diagram 8). Normal Refrigeration The liquid line solenoid valve (LLS) receives power from terminal #4 of the defrost timer through the room thermostat. The thermostat will close on rise of room temperature, energizing the LLS and allowing refrigerant flow to the unit cooler. Pressure will build up in the low-side and the low pressure control (not shown) will close, starting the compressor. Wiring Diagram 8 One or 460 volt unit wired with fan motor and defrost heater contactors. The room thermostat will open when it reaches its cut-out set point, breaking power to the LLS. The LLS will close, stopping refrigerant flow to the unit cooler. The system will pump down and the compressor will stop. Defrost The defrost timer will switch to the defrost position at the pre-set time. Timer contact to terminal #3 will close, supplying power to the normally closed Lock-Out Relay R-1. The holding coil of R1 (not shown) is to be wired in parallel with the compressor contactor holding coil. R-1 will thereby remain open as long as the compressor is running, preventing the heaters from operating at the same time as the compressor. This eliminates the need for oversized wiring to the condensing unit. R-1 can also represent a normally closed auxiliary contact in the compressor contactor. Timer contact to terminal #4 will open at the same time, breaking power to the LLS and the unit cooler fan motors. Refrigerant flow to the unit cooler will stop. The compressor will continue to run until the system pumps down on the low pressure control, stopping the compressor. Relay R1 will close at that time, energizing the defrost heaters to defrost the coil. Temperature Termination The Defrost Termination thermostat installed in the unit cooler will sense the completion of defrost and close its contact N1-X, supplying power to terminal "X" on Note: EFE units do not have a fan delay thermostat. Wire the M-3 holding coil directly to N1. Identical to Diagram 7 except: 1. Terminal #4 on the defrost timer will supply power to the holding coil of motor contactor M3 instead of supplying power directly to the fan motors. 2. Terminal #3 on the timer will supply power to the holding coil of heater contactor M2 instead of supplying power directly to the defrost heater. 11
12 TYPICAL FIELD WIRING SEQUENCE OF OPERATION Electric Defrost Dual Unit Cooler Systems (Without Sequencing Relays Wiring Diagram 9 Two units wired directly to timer. Wiring Diagram 10 Two or 460 volt units wired with fan motor and defrost heater contactors. Note: EFE units do not have a fan delay thermostat. Run wires from B2 on each unit cooler to N1 on Unit Cooler A. Note: EFE units do not have a fan delay thermostat. Wire the M3 holding coil directly to N1 on Unit Cooler A. Sequence of operation is the same as Wiring Diagram 7, except: Identical to Diagram 9 except that fan motor and defrost heater power is supplied through contactors M3 and M2 respectively. 1. Defrost termination thermostat contacts N1-X are wired in series both unit coolers must terminate to terminate the timer. 2. The fan delay thermostat in Unit B is not used the fan delay function for both units is controlled by the fan delay on Unit A. 12
13 TYPICAL FIELD WIRING SEQUENCE OF OPERATION Electric Defrost Dual Unit Cooler Systems (With Sequencing Relays) Wiring Diagram 11 Two or 460 volt units wired with fan motor and defrost heater contactors. Identical to Wiring Diagram 10 except that termination is accomplished through sequencing relays R2 and R3. The heaters of one unit can de-energize when the coil is clean while the other unit can continue defrost if required. This eliminated steaming of the unit that completed defrost first. Note that separate heater contactors (M2 & M4) are required for each unit cooler. Unit A will energize R2 when it terminates. R2 normally closed (N.C.) contact will open, de-energizing heater contactor M2. R2 normally open (N.O.) contact closes. The timer cannot terminate, however, until both (N.O.) R2 and R3 contacts close they are wired in series to timer terminal "X". Unit B continues defrost until termination temperature is reached. R3 will then energize its (N.C.) contact opens (de-energizing M4) and its (N.O.) contact closes (bringing power to timer terminal "X") which terminates defrost. Note: Medium temperature units do not have a fan delay thermostat. Wire the M3 holding coil directly to N1 on Unit Cooler A. 13
14 START-UP PROCEDURE System Check Before starting the refrigeration system, check the following items: 1. Make sure the system is wired as shown in the diagrams in the Installation Section of this bulletin or the diagram in the unit. 2. Make sure all electrical connections are tight. 3. Make sure all piping is done as described in the Installation Section of this bulletin and in accordance with good piping practice. 4. Make sure all fan set screws are tight. 5. Make sure that the service valves on the compressor and receiver are open. 6. Make sure the unit is mounted securely and level. Pour water into the drain pan to make sure that the drain pan and drain line drain completely. 7. Make sure that the drain line is adequately heated on freezer applications. 8. Properly evacuate the system. 9. Follow proper procedures for handling and start-up of systems using polyester based lubricants. 10. Record the refrigerant type, system charge and oil type in the blanks provided on the unit nameplate. Initial Start-up Check the following items after initial unit start-up: 1. After the initial start-up, the fans on low temperature electric and hot gas defrost units will not start until the coil temperature pulls down to about 30 F. The fans may cycle several times until the room temperature is pulled down. 2. Check the system for proper refrigerant charge and oil level. 3. Make sure that the expansion valve superheat is set correctly. See the "Superheat Adjustment" section below. 4. Make sure the drain line heater is functioning properly. 5. During initial start-up it is not unusual to have very heavy frost loads. It may be necessary to manually initiate defrost cycles as needed until the moisture level in the room is reduced. 6. Observe the first defrost cycle on electric and hot gas defrost units to make sure that all system components are functioning properly. Check the amp draw of the defrost heaters on electric defrost units to make sure that they are working. Also make sure that the defrost cycle is terminated by the termination thermostat and not by the "fail-safe" on the timer. Superheat Adjustment The superheat must be adjusted properly for efficient unit cooler operation and to protect the compressor from floodback. The superheat should be set at 10 F to 12 F. 1. Allow the system to operate until the refrigerated space temperature has been reduced to the design temperature. 2. Connect an accurate low pressure gauge to the access fitting installed in the suction line at the unit cooler outlet. Caution: The evaporator pressure reading must be taken at a point no more than five feet from the unit cooler. For this reason, it is not normally suitable to use the compressor suction service valve for this purpose. 3. Tape the sensor from an electronic thermometer to the suction line as close to the expansion valve bulb as possible. Insulate the sensor. 4. Take evaporator pressure and temperature readings with the system operating. Determine the superheat using a Pressure-Temperature Saturation Table for the refrigerant being used. The following example will illustrate the procedure. Given: Measured pressure = 43 PSIG Measured temperature= 35 F From a Saturation Table, the saturation temperature for R-22 at 43 PSIG is 20 F. Compare the saturated suction temperature from the table to the actual suction temperature on the thermometer. The difference is the superheat. 35 F - 20 F = 15 F superheat A superheat of 15 F is too high so the valve must be opened up. See the expansion valve manufacturers recommendations for the adjustment procedure. Always wait for 20 to 30 minutes after adjustment for the system to stabilize. Take new readings and readjust the valve as required. 14
15 Defrost Controls Electric Defrost Timer The standard timer is an Paragon or equal. If a different timer is used, make sure that it has a "fail safe" feature. This is a setting on the timer that will terminate the defrost cycle after a set period of time, if the defrost thermostat fails to do so. This feature assures that the unit will not stay in defrost for an extended period of time. However, it is important that the "fail-safe" not be set for a time period that is too short. If this is done, the defrost may be terminated by the "fail-safe" and not by the termination thermostat. This can result in incomplete defrost cycles. For most applications, a "fail-safe" setting of 40 minutes should be used. Normally two defrost periods per day are adequate but more may be required if humidity levels are high. Hot Gas Defrost (SDG & EFG) An SPDT thermostat is used, closing on rise at 70 F. with a 10 differential. It is clipped to a return bend near the exit point of the defrosting refrigerant. The factory location should not have to be changed in the field. Safety Thermostat This is a fixed setting (thermal-disk style) thermostat that is furnished on all electric defrost units. It is an open-on-rise control set to open at 90 F. It provides additional protection against overheating the unit cooler and room should the primary termination fail. Defrost Termination/Fan Delay Thermostat Electric Defrost (SDE) This is an SPDT fixed setting (thermal-disk type) thermostat. It is mounted to the coil endplate with two sheetmetal screws. It can be easily moved to other endplate locations to meet unusual frosting conditions. The thermostat closes from Red to Brn at 55 F on rise in temperature to provide termination. It closes from Red to Blk at 35 F on a fall in temperature to provide fan delay. Defrost Termination Thermostat This is a fixed setting (thermal-disk type) control. Electric Defrost (EFE) An SPST thermostat is used, closing on rise at 50 F. with a 20 differential. It is clipped to a return bend at the best average location. It can be readily moved to meet unusual frosting conditions. Fan Delay Thermostat This is a fixed setting (thermal-disk style) thermostat that is furnished on hot gas defrost SDG units. It is a SPST open-on-rise thermostat which opens at +40 and closes at +30,sensing return bend temperature near the beginning of a coil circuit. Fan Delay Medium Temperature SDE & SDG unit fans on systems operating above -20 evaporator temperature may experience excessive delay restarting after defrost. The fan delay thermostat may be de-activated per the instructions on pages 10 and 11. General Check unit at least once a month for proper defrosting. The amount and pattern of frosting can vary greatly. It is dependent on room temperature, product being stored, turnover of product, percentage of time door is open and the temperature and humidity conditions surrounding the room. It may be necessary to periodically change the number or duration of defrost cycles. Cleaning The unit should be shut down and cleaned per NSF regulations at least once every six months. MAINTENANCE Clean the fins with an UL Sanitation approved cleaning agent. The drain pan and the end panels should then be opened and cleaned. The end panels may be removed and totally immersed in water for cleaning if so desired. The fan deck must be cleaned in place. The fan guards may be removed or cleaned in place. The fan blades can be cleaned when the fan guards are removed, but care must be taken not to bend the blades as this may cause an out-of-balance condition. All internal metal surfaces of the unit should also be cleaned. CAUTION: Make sure all electrical power to the unit is turned off and locked out before proceeding. 15
16 Maintenance (cont.) Check-Up All components should be checked at least every six months for proper operation as follows: 1. Tighten all electrical connections. 2. Tighten fan set screws. 3. Check the system refrigerant charge and oil level. 4. Make sure the defrost controls are functioning properly. 5. Check the drain pan and drain line for proper drainage. 6. Check the drain line heaters for proper operation. Fan And Motor Replacement Model SD WARNING: Make sure all electrical power to unit is disconnected before replacing fans or motors. The fan and motor can be accessed for replacement thru the fan venturi. 1. Remove the fan guard by removing the four screws which hold it in place. 2. Remove the fan blade by loosening the set screw with an allen wrench. 3. Disconnect the motor by unplugging the motor wires from the wiring harness. 4. Remove the nuts from the studs on the shaft end of the motor. 5. Grasp the motor, slide it out of the mount, and remove it through the fan venturi. To replace the motor, reverse the above steps. Make sure that all star washers are replaced to insure proper grounding of the motor to the unit. Fan Delay Thermostat Hot as Defrost (SDG) This is an SPDT fixed setting (thermal-disk type) thermostat that is furnished on hot gas defrost units. Fan Delay Medium Temperature SDE & SDG unit fans on systems operating above +20 evaporator temperature may experience excessive delay restarting after defrost. The fan delay thermostat may be de-activated per the instructions on pages 10 and Fan And Motor Replacement Model EF WARNING: Make sure all electrical power to unit is disconnected before replacing fans or motors. 1. Disconnect the drain line from the drain pan, remove the screws opposite the hinges and lower the drain pan. 2. Disconnect the motor by unplugging the motor wires from the wiring harness. 3. Remove the fan blade using an allen wrench. 4. Remove the 4 nuts from the shaft end of the motor. 5. Grasp the motor and slide it out of the mount and remove. To replace the assembly, reverse the above steps. Defrost Heater Replacement (EFE Units) WARNING: Make sure all electrical power to unit is disconnected before replacing defrost heaters. 1. Disconnect the drain line from the drain pan, remove the screws and lower the drain pan. 2. Unplug the heater wires from the wiring harness. 3. Model EF Low Velocity Units Only Use pliers to remove the heater clips which hold the heaters in place. 4. Slide the heater out of the unit. Reverse the above steps to reinstall the replacement heater. Defrost Heater Replacement (SDE Units) WARNING: Make sure all electrical power to unit is turned off. A. Insertion Heaters 1. Remove both unit end covers. 2. Disconnect heater leads from terminal block. 3. Straighten ends of heater. 4. Pull heater out of unit. Bend if necessary to avoid obstructions. 5. From TXV end of unit, insert heater leads into holes and push heater through coil. NOTE: Replacement heaters for 3-6 fan units are coiled for shipment. This allows heater to be installed even if end of unit is close to an obstruction. See Drawing Locate heater so that the ends extend 4.75 inches (over the rubber end seals) into the end compartment. 7. Connect leads to terminal blocks, bend heaters just enough at endplate so end cover can be installed and tie leads so they cannot contact hot parts of heaters. 8. Reinstall both end covers. B. Bottom Heaters 1. Remove electrical end cover. 2. Disconnect heater leads from terminal block. 3. Use pliers to remove clips that hold the heater in place and remove the heater. 4. Pull heater out of unit. Bend if necessary to avoid obstructions. 5. Note bends in hold heater. This is done to insure NG contact between the heater and the drain pan. 6. If the new heater is coiled, straighten it by rolling it out on the floor. 7. Connect heater leads to terminal block. 8. Reinstall drain pan and cover.
17 TROUBLESHOOTING CHART Symptoms Possible Causes Corrective Action Fan(s) will not operate. 1. Main switch open. 1. Close switch. 2. Blown fuses. 2. Replace fuses. Check for short circuits or overload conditions. 3. Defective motor(s). 3. Replace motor(s). 4. Defective fan delay thermostat (SD only) 4. Replace defective component. or defective timer. 5. Unit in defrost cycle. 5. Wait for completion of cycle. 6. Fan delay thermostat (SDG only) not sensing 6. Make sure t'stat is properly positioned coil temperature. so it senses the coil return bend temperature. 7. Evaporator temperature approaching 30 F. 7. Eliminate for delay. Room temperature too high. 1. Room thermostat set too high. 1. Adjust thermostat. 2. Superheat too high. 2. Adjust thermal expansion valve. 3. System low on refrigerant. 3. Add refrigerant. 4. Coil iced-up. 4. Manually defrost coil. Check defrost controls for malfunction. Defrost heaters will not 1. Main switch open. 1. Close switch. operate. 2. Blown fuses. 2. Replace fuses. Check for short circuits or overload conditions. 3. Defective heater(s). 3. Replace heater(s). 4. Defective timer. 4. Replace timer. Coil not clearing frost during 1. Defective heater(s). 1. Replace heater(s). defrost cycle. 2. Not enough defrost cycles per day. 2. Adjust timer for more defrost cycles. 3. Defective defrost termination t'stat 3. Replace thermostat. 4. Defrost termination thermostat not sensing 4. Relocate thermostat. coil area that is not clearing. 5. Fail-safe on timer set too short. 5. Lengthen fail-safe time setting- do not exceed 40 minutes. Ice accumulating in drain 1. Defective heater. 1. Replace heater. pan. 2. Unit not pitched properly. 2. Check and adjust if necessary. 3. Drain plugged. 3. Clean drain. 4. Defective drain line heater. 4. Replace heater. Units stays in prolonged 1. Defective timer or thermostat. 1. Replace defective component. defost cycle. 2. Defrost termination thermostat not sensing 2. Make sure t'stat is positioned to sense coil temperature. coil return bend temperature (EFE, EFG, SDG) or end plate temperature (SDE). 3. Fail-safe on timer set too long. 3. Shorten fail-safe setting. 17
18 MODEL SD REPLACEMENT PARTS FAN MOTORS AND BLADES Unit Motor Data Fan Data Model Voltage HP RPM Part No. Part No. Bore 115V /16 All 230V 1/20 SP Models 460V V 1/20 PSC V 1/20 PSC ELECTRIC DEFROST MODELS 18 Unit Size or Model No. Heater Data Qty Watts Volts Part No. 1-Fan Fan Except models listed below: 119H, 139H, 085M, 105M M, 065L, 089L, 120L 3-Fan Except models listed below: 3 230H, 168M, 210M L, 180L 4-Fan Fan Fan All SDE Defrost Termination & Fan Delay T'stat Defrost Heater Safety ALL SDG Defrost Termination Thermostat Low & Med. Temp. Fan Delay Thermostat, 1-3 Fans SDG Fan Delay Thermostat, 4-6 Fans DRAIN PANS Consult Factory for 460V Specifications FAN GUARDS Unit Size or Model No. Part No. Blade Size Part No. 1-Fan Units " Wire Fan Units " Plastic Except models listed below: 119H, 139H, 085M, 105M MOTOR MOUNT 124M, 065L, 089L, 120L Unit Size Part No. 3-Fan Units All Units Except models listed below: 230H, 168M, 210M L, 180L 4-Fan Units Fan Units Fan Units Air &electric defrost only contact factory for hot gas pan part number. NUMBER OF FANS vs. MODEL NUMBER 1-Fan Units SDA 054H-074H SDA, SDE, SDG 038M-060M SDE, SDG 036L-052L 2-Fan Units SDA 090H-139H SDA, SDE, SDG 080M-124M SDE, SDG 055L-120L 3-Fan Units SDA 171H-230H SDA, SDE, SDG 125M-210M SDE, SDG 110L-180L 4-Fan Units SDA 270H SDA, SDE, SDG 214M-254M SDE, SDG 181L-215L 5-Fan Units SDA 330H SDA, SDE, SDG 255M-305M SDE, SDG 220L-240L 6-Fan Units SDA 410H SDA, SDE, SDG 325M-350M SDE 260L & 300L
19 MODEL EF REPLACEMENT PARTS FAN MOTORS AND BLADES Unit Motor Data Fan Blade Data Model Voltage HP RPM Part No. Part No. Bore 115V 1/ /16" All V 1/ Models 460V 1/ /20 PSC V /16" +EFA, EFE and EFG Model 075 only ELECTRIC DEFROST MODELS Unit Cooler Heater Data Part Size Quantity Watts Volts Number 1-Fan Units Fan Units Fan Units Fan Units Fan Units Fan Units All Defrost Termination Thermostat EFE Defrost Heater Safety All EFG Defrost Termination Thermostat NUMBER OF FANS vs. MODEL NUMBER 1-Fan Units EFA, EFE, EFG Fan Units EFA, EFE, EFG Fan Units EFA, EFE, EFG DRAIN PANS Unit Size Part No. 1 Fan Units Fan Units Fan Units Fan Units Fan Units Fan Units Fan Units EFA, EFE, EFG Fan Units EFA, EFE, EFG Fan Units EFA, EFE, EFG 340 FAN GUARDS Blade Size Part No. 10"
20 SERVICE NOTES WITT P.O. Box 580 Collierville, TN (901) Fax (901) MP3000
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